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ecaldqm::binning Namespace Reference

Classes

struct  AxisSpecs
 

Enumerations

enum  BinningType {
  kCrystal, kTriggerTower, kSuperCrystal, kPseudoStrip,
  kTCC, kDCC, kProjEta, kProjPhi,
  kRCT, kUser, kReport, kTrend,
  nBinType
}
 
enum  Constants {
  nPresetBinnings = kRCT + 1, nEBSMEta = 85, nEBSMPhi = 20, nEESMX = 40,
  nEESMXRed = 30, nEESMXExt = 45, nEESMY = 40, nEESMYRed = 35,
  nEBEtaBins = 34, nEEEtaBins = 20, nPhiBins = 36
}
 
enum  ObjectType {
  kEB, kEE, kEEm, kEEp,
  kSM, kEBSM, kEESM, kSMMEM,
  kEBSMMEM, kEESMMEM, kEcal, kMEM,
  kEBMEM, kEEMEM, kEcal2P, kEcal3P,
  kEE2P, kMEM2P, kChannel, nObjType
}
 

Functions

std::string channelName (EcalElectronicsMapping const *, uint32_t, BinningType _btype=kDCC)
 
void fillAxisDescriptions (edm::ParameterSetDescription &)
 
int findBin1D (EcalElectronicsMapping const *, ObjectType, BinningType, DetId const &)
 
int findBin1D (EcalElectronicsMapping const *, ObjectType, BinningType, EcalElectronicsId const &)
 
int findBin1D (EcalElectronicsMapping const *, ObjectType, BinningType, int)
 
int findBin2D (EcalElectronicsMapping const *, ObjectType, BinningType, DetId const &)
 
int findBin2D (EcalElectronicsMapping const *, ObjectType, BinningType, EcalElectronicsId const &)
 
int findBin2D (EcalElectronicsMapping const *, ObjectType, BinningType, int)
 
int findBinCrystal_ (EcalElectronicsMapping const *, ObjectType, DetId const &, int=-1)
 
int findBinCrystal_ (EcalElectronicsMapping const *, ObjectType, EcalElectronicsId const &)
 
int findBinPseudoStrip_ (EcalElectronicsMapping const *, ObjectType, DetId const &)
 
int findBinRCT_ (ObjectType, DetId const &)
 
int findBinSuperCrystal_ (EcalElectronicsMapping const *, ObjectType, DetId const &, int=-1)
 
int findBinSuperCrystal_ (EcalElectronicsMapping const *, ObjectType, EcalElectronicsId const &)
 
int findBinTriggerTower_ (EcalElectronicsMapping const *, ObjectType, DetId const &)
 
unsigned findPlotIndex (EcalElectronicsMapping const *, ObjectType, DetId const &)
 
unsigned findPlotIndex (EcalElectronicsMapping const *, ObjectType, EcalElectronicsId const &)
 
unsigned findPlotIndex (EcalElectronicsMapping const *, ObjectType, int, BinningType _btype=kDCC)
 
AxisSpecs formAxis (edm::ParameterSet const &)
 
AxisSpecs getBinning (EcalElectronicsMapping const *, ObjectType, BinningType, bool, int, unsigned)
 
AxisSpecs getBinningEB_ (BinningType, bool, int)
 
AxisSpecs getBinningEcal_ (BinningType, bool, int)
 
AxisSpecs getBinningEE_ (BinningType, bool, int, int)
 
AxisSpecs getBinningMEM_ (BinningType, bool, int, int)
 
AxisSpecs getBinningSM_ (BinningType, bool, unsigned, int, EcalElectronicsMapping const *)
 
AxisSpecs getBinningSMMEM_ (BinningType, bool, unsigned, int)
 
unsigned getNObjects (ObjectType)
 
ObjectType getObject (ObjectType, unsigned)
 
uint32_t idFromBin (ObjectType, BinningType, unsigned, int)
 
uint32_t idFromName (std::string const &)
 
bool isValidIdBin (EcalElectronicsMapping const *, ObjectType, BinningType, unsigned, int)
 
BinningType translateBinningType (std::string const &)
 
dqm::legacy::MonitorElement::Kind translateKind (std::string const &)
 
ObjectType translateObjectType (std::string const &)
 
int xlow_ (int)
 
int ylow_ (int)
 

Enumeration Type Documentation

◆ BinningType

Enumerator
kCrystal 
kTriggerTower 
kSuperCrystal 
kPseudoStrip 
kTCC 
kDCC 
kProjEta 
kProjPhi 
kRCT 
kUser 
kReport 
kTrend 
nBinType 

Definition at line 41 of file MESetBinningUtils.h.

41  {
42  kCrystal,
46  kTCC,
47  kDCC,
48  kProjEta,
49  kProjPhi,
50  kRCT,
51  kUser,
52  kReport,
53  kTrend,
54  nBinType
55  };

◆ Constants

Enumerator
nPresetBinnings 
nEBSMEta 
nEBSMPhi 
nEESMX 
nEESMXRed 
nEESMXExt 
nEESMY 
nEESMYRed 
nEBEtaBins 
nEEEtaBins 
nPhiBins 

Definition at line 57 of file MESetBinningUtils.h.

57  {
58  nPresetBinnings = kRCT + 1,
59 
60  nEBSMEta = 85,
61  nEBSMPhi = 20,
62  nEESMX = 40,
63  nEESMXRed = 30, // for EE+-01&05&09
64  nEESMXExt = 45, // for EE+-02&08
65  nEESMY = 40,
66  nEESMYRed = 35, // for EE+-03&07
67 
68  nEBEtaBins = 34,
69  nEEEtaBins = 20,
70  nPhiBins = 36
71  };

◆ ObjectType

Enumerator
kEB 
kEE 
kEEm 
kEEp 
kSM 
kEBSM 
kEESM 
kSMMEM 
kEBSMMEM 
kEESMMEM 
kEcal 
kMEM 
kEBMEM 
kEEMEM 
kEcal2P 
kEcal3P 
kEE2P 
kMEM2P 
kChannel 
nObjType 

Definition at line 18 of file MESetBinningUtils.h.

18  {
19  kEB,
20  kEE,
21  kEEm,
22  kEEp,
23  kSM,
24  kEBSM,
25  kEESM,
26  kSMMEM,
27  kEBSMMEM,
28  kEESMMEM,
29  kEcal,
30  kMEM,
31  kEBMEM,
32  kEEMEM,
33  kEcal2P,
34  kEcal3P,
35  kEE2P,
36  kMEM2P,
37  kChannel,
38  nObjType
39  };

Function Documentation

◆ channelName()

std::string ecaldqm::binning::channelName ( EcalElectronicsMapping const *  electronicsMap,
uint32_t  _rawId,
BinningType  _btype = kDCC 
)

Definition at line 615 of file MESetBinningUtils.cc.

617  {
618  // assume the following IDs for respective binning types:
619  // Crystal: EcalElectronicsId
620  // TriggerTower: EcalTriggerElectronicsId (pstrip and channel ignored)
621  // SuperCrystal: EcalElectronicsId (strip and crystal ignored)
622  // TCC: TCC ID
623  // DCC: DCC ID
624 
625  std::stringstream ss;
626 
627  switch (_btype) {
628  case kCrystal: {
629  // EB-03 DCC 12 CCU 12 strip 3 xtal 1 (EB ieta -13 iphi 60) (TCC 39 TT 12
630  // pstrip 3 chan 1)
631  EcalElectronicsId eid(_rawId);
632  if (eid.towerId() >= 69)
633  ss << smName(eid.dccId()) << " DCC " << eid.dccId() << " CCU " << eid.towerId() << " PN " << eid.xtalId();
634  else {
635  ss << smName(eid.dccId()) << " DCC " << eid.dccId() << " CCU " << eid.towerId() << " strip "
636  << eid.stripId() << " xtal " << eid.xtalId();
637 
638  if (eid.dccId() >= kEBmLow + 1 && eid.dccId() <= kEBpHigh + 1) {
639  EBDetId ebid(electronicsMap->getDetId(eid));
640  ss << " (EB ieta " << std::showpos << ebid.ieta() << std::noshowpos << " iphi " << ebid.iphi() << ")";
641  } else {
642  EEDetId eeid(electronicsMap->getDetId(eid));
643  ss << " (EE ix " << eeid.ix() << " iy " << eeid.iy() << ")";
644  }
645  EcalTriggerElectronicsId teid(electronicsMap->getTriggerElectronicsId(eid));
646  ss << " (TCC " << teid.tccId() << " TT " << teid.ttId() << " pstrip " << teid.pseudoStripId() << " chan "
647  << teid.channelId() << ")";
648  break;
649  }
650  }
651  [[fallthrough]];
652  case kTriggerTower: {
653  // EB-03 DCC 12 TCC 18 TT 3
654  EcalTriggerElectronicsId teid(_rawId);
655  EcalElectronicsId eid(electronicsMap->getElectronicsId(teid));
656  ss << smName(eid.dccId()) << " DCC " << eid.dccId() << " TCC " << teid.tccId() << " TT " << teid.ttId();
657  break;
658  }
659  case kSuperCrystal: {
660  // EB-03 DCC 12 CCU 18 (EBTT ieta -13 iphi 60)
661  EcalElectronicsId eid(_rawId);
662  ss << smName(eid.dccId()) << " DCC " << eid.dccId() << " CCU " << eid.towerId();
663  if (eid.dccId() >= kEBmLow + 1 && eid.dccId() <= kEBpHigh + 1) {
664  EcalTrigTowerDetId ttid(EBDetId(electronicsMap->getDetId(eid)).tower());
665  ss << " (EBTT ieta " << std::showpos << ttid.ieta() << std::noshowpos << " iphi " << ttid.iphi() << ")";
666  } else {
667  EcalScDetId scid(EEDetId(electronicsMap->getDetId(eid)).sc());
668  ss << " (EESC ix " << scid.ix() << " iy " << scid.iy() << ")";
669  }
670  break;
671  }
672  case kTCC: {
673  // EB-03 TCC 12
674  int tccid(_rawId - nDCC);
675  int dccid(electronicsMap->DCCid(electronicsMap->getTrigTowerDetId(tccid, 1)));
676  ss << smName(dccid) << " TCC " << (_rawId - nDCC);
677  break;
678  }
679  case kDCC:
680  ss << smName(_rawId);
681  break;
682  default:
683  break;
684  }
685 
686  return ss.str();
687  }

References EcalElectronicsMapping::DCCid(), runTauDisplay::eid, EcalElectronicsMapping::getDetId(), EcalElectronicsMapping::getElectronicsId(), EcalElectronicsMapping::getTriggerElectronicsId(), EcalElectronicsMapping::getTrigTowerDetId(), kCrystal, kDCC, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, kSuperCrystal, kTCC, kTriggerTower, ecaldqm::nDCC, ecaldqm::smName(), contentValuesCheck::ss, EcalTriggerElectronicsId::tccId(), hgcalTowerProducer_cfi::tower, and EcalTriggerElectronicsId::ttId().

Referenced by ecaldqm::MESetDet2D::book(), ecaldqm::MESetDet1D::book(), ecaldqm::MESetEcal::generatePaths(), and DTNoiseCalibration::getChannelName().

◆ fillAxisDescriptions()

void ecaldqm::binning::fillAxisDescriptions ( edm::ParameterSetDescription _desc)

Definition at line 866 of file MESetBinningUtils.cc.

866  {
867  _desc.addUntracked<std::string>("title", "");
868  _desc.addUntracked<int>("nbins", 0);
869  _desc.addUntracked<double>("low", 0.);
870  _desc.addOptionalNode(edm::ParameterDescription<double>("high", 0., false) ^
871  edm::ParameterDescription<double>("unitsPerBin", 0., false),
872  false);
873  _desc.addOptionalUntracked<std::vector<double>>("edges");
874  _desc.addOptionalUntracked<std::vector<std::string>>("labels");
875  }

References edm::ParameterSetDescription::addOptionalNode(), edm::ParameterSetDescription::addOptionalUntracked(), edm::ParameterSetDescription::addUntracked(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by ecaldqm::fillMESetDescriptions().

◆ findBin1D() [1/3]

int ecaldqm::binning::findBin1D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
DetId const &  _id 
)

Definition at line 63 of file MESetBinningUtils.cc.

66  {
67  switch (_otype) {
68  case kSM:
69  case kEBSM:
70  case kEESM:
71  if (_btype == kSuperCrystal)
72  return towerId(_id, electronicsMap);
73  else if (_btype == kTriggerTower) {
74  unsigned tccid(tccId(_id, electronicsMap));
75  if (tccid <= 36 || tccid >= 73) { // EE
76  unsigned bin(ttId(_id, electronicsMap));
77  bool outer((tccid >= 19 && tccid <= 36) || (tccid >= 73 && tccid <= 90));
78  // For the following, the constants nTTInner and nTTOuter are defined in
79  // EcalDQMCommonUtils.h.
80  if (outer)
81  bin += 2 * nTTInner; // For outer TCCs, sets bin number to increment
82  // by twice the number of TTs in inner TCCs, because numbering of bins
83  // is in the order (inner1, inner2, outer1, outer2).
84  // ("inner"" := closer to the beam)
85  bin += (tccid % 2) * (outer ? nTTOuter : nTTInner); // Yields x-axis bin number
86  // in the format above; TTs in even-numbered TCCs are filled in inner1
87  // or outer1, and those in odd-numbered TCC are filled in inner2 and
88  // outer2.
89  return bin;
90  } else
91  return ttId(_id, electronicsMap);
92  } else
93  break;
94  case kEcal:
95  if (_btype == kDCC)
96  return dccId(_id, electronicsMap);
97  else if (_btype == kTCC)
98  return tccId(_id, electronicsMap);
99  else
100  break;
101  case kEB:
102  if (_btype == kDCC)
103  return dccId(_id, electronicsMap) - 9;
104  else if (_btype == kTCC)
105  return tccId(_id, electronicsMap) - 36;
106  else
107  break;
108  case kEEm:
109  if (_btype == kDCC)
110  return dccId(_id, electronicsMap);
111  else if (_btype == kTCC)
112  return tccId(_id, electronicsMap);
113  else
114  break;
115  case kEEp:
116  if (_btype == kDCC)
117  return dccId(_id, electronicsMap) - 45;
118  else if (_btype == kTCC)
119  return tccId(_id, electronicsMap) - 72;
120  else
121  break;
122  case kEE:
123  if (_btype == kDCC) {
124  int bin(dccId(_id, electronicsMap));
125  if (bin >= 46)
126  bin -= 36;
127  return bin;
128  } else if (_btype == kTCC) {
129  int bin(tccId(_id, electronicsMap));
130  if (bin >= 72)
131  bin -= 36;
132  return bin;
133  } else
134  break;
135  case kSMMEM:
136  case kEBSMMEM:
137  case kEESMMEM:
138  if (_btype == kCrystal)
139  return EcalPnDiodeDetId(_id).iPnId();
140  else
141  break;
142  default:
143  break;
144  }
145 
146  return 0;
147  }

References newFWLiteAna::bin, ecaldqm::dccId(), EcalPnDiodeDetId::iPnId(), kCrystal, kDCC, kEB, kEBSM, kEBSMMEM, kEcal, kEE, kEEm, kEEp, kEESM, kEESMMEM, kSM, kSMMEM, kSuperCrystal, kTCC, kTriggerTower, ecaldqm::nTTInner, ecaldqm::nTTOuter, SurfaceOrientation::outer, ecaldqm::tccId(), ecaldqm::towerId(), and ecaldqm::ttId().

Referenced by ecaldqm::MESetDet1D::fill(), ecaldqm::MESetDet1D::findBin(), ecaldqm::MESetDet1D::getBinContent(), ecaldqm::MESetDet1D::getBinEntries(), ecaldqm::MESetDet1D::getBinError(), ecaldqm::MESetDet1D::setBinContent(), ecaldqm::MESetDet1D::setBinEntries(), and ecaldqm::MESetDet1D::setBinError().

◆ findBin1D() [2/3]

int ecaldqm::binning::findBin1D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
EcalElectronicsId const &  _id 
)

Definition at line 149 of file MESetBinningUtils.cc.

152  {
153  switch (_otype) {
154  case kSM:
155  case kEBSM:
156  case kEESM:
157  if (_btype == kSuperCrystal)
158  return towerId(_id);
159  else if (_btype == kTriggerTower) {
160  unsigned tccid(tccId(_id, electronicsMap));
161  if (tccid <= 36 || tccid >= 73) { // EE
162  unsigned bin(ttId(_id, electronicsMap));
163  bool outer((tccid >= 19 && tccid <= 36) || (tccid >= 73 && tccid <= 90));
164  // For the following, the constants nTTInner and nTTOuter are defined in
165  // EcalDQMCommonUtils.h.
166  if (outer)
167  bin += 2 * nTTInner; // For outer TCCs, sets bin number to increment
168  // by twice the number of TTs in inner TCCs, because numbering of bins
169  // is in the order (inner1, inner2, outer1, outer2).
170  // ("inner"" := closer to the beam)
171  bin += (tccid % 2) * (outer ? nTTOuter : nTTInner); // Yields x-axis bin number
172  // in the format above; TTs in even-numbered TCCs are filled in inner1
173  // or outer1, and those in odd-numbered TCC are filled in inner2 and
174  // outer2.
175  return bin;
176  } else
177  return ttId(_id, electronicsMap);
178  } else
179  break;
180  case kEcal:
181  if (_btype == kDCC)
182  return dccId(_id);
183  else if (_btype == kTCC)
184  return tccId(_id, electronicsMap);
185  else
186  break;
187  case kEB:
188  if (_btype == kDCC)
189  return dccId(_id) - 9;
190  else if (_btype == kTCC)
191  return tccId(_id, electronicsMap) - 36;
192  else
193  break;
194  case kEEm:
195  if (_btype == kDCC)
196  return dccId(_id);
197  else if (_btype == kTCC)
198  return tccId(_id, electronicsMap);
199  else
200  break;
201  case kEEp:
202  if (_btype == kDCC)
203  return dccId(_id) - 45;
204  else if (_btype == kTCC)
205  return tccId(_id, electronicsMap) - 72;
206  else
207  break;
208  case kEE:
209  if (_btype == kDCC) {
210  int bin(dccId(_id));
211  if (bin >= 46)
212  bin -= 36;
213  return bin;
214  } else if (_btype == kTCC) {
215  int bin(tccId(_id, electronicsMap));
216  if (bin >= 72)
217  bin -= 36;
218  return bin;
219  } else
220  break;
221  default:
222  break;
223  }
224 
225  return 0;
226  }

References newFWLiteAna::bin, ecaldqm::dccId(), kDCC, kEB, kEBSM, kEcal, kEE, kEEm, kEEp, kEESM, kSM, kSuperCrystal, kTCC, kTriggerTower, ecaldqm::nTTInner, ecaldqm::nTTOuter, SurfaceOrientation::outer, ecaldqm::tccId(), ecaldqm::towerId(), and ecaldqm::ttId().

◆ findBin1D() [3/3]

int ecaldqm::binning::findBin1D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
int  _dcctccid 
)

Definition at line 228 of file MESetBinningUtils.cc.

228  {
229  if (_otype == kEcal && _btype == kDCC)
230  return _dcctccid;
231  else if (_otype == kEcal && _btype == kTCC)
232  return _dcctccid;
233  if (_otype == kEB && _btype == kDCC)
234  return _dcctccid - 9;
235  else if (_otype == kEB && _btype == kTCC)
236  return _dcctccid - 36;
237  else if (_otype == kEEm && _btype == kDCC)
238  return _dcctccid;
239  else if (_otype == kEEm && _btype == kTCC)
240  return _dcctccid;
241  else if (_otype == kEEp && _btype == kDCC)
242  return _dcctccid - 45;
243  else if (_otype == kEEp && _btype == kTCC)
244  return _dcctccid - 72;
245  else if (_otype == kEE && _btype == kDCC)
246  return _dcctccid <= 9 ? _dcctccid : _dcctccid - 36;
247  else if (_otype == kEE && _btype == kTCC)
248  return _dcctccid <= 36 ? _dcctccid : _dcctccid - 36;
249 
250  return 0;
251  }

References kDCC, kEB, kEcal, kEE, kEEm, kEEp, and kTCC.

◆ findBin2D() [1/3]

int ecaldqm::binning::findBin2D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
DetId const &  _id 
)

Definition at line 253 of file MESetBinningUtils.cc.

256  {
257  if (_otype >= nObjType || _btype >= unsigned(nPresetBinnings))
258  return 0;
259 
260  switch (_btype) {
261  case kCrystal:
262  return findBinCrystal_(electronicsMap, _otype, _id);
263  break;
264  case kTriggerTower:
265  return findBinTriggerTower_(electronicsMap, _otype, _id);
266  break;
267  case kSuperCrystal:
268  return findBinSuperCrystal_(electronicsMap, _otype, _id);
269  break;
270  case kPseudoStrip:
271  return findBinPseudoStrip_(electronicsMap, _otype, _id);
272  break;
273  case kRCT:
274  return findBinRCT_(_otype, _id);
275  break;
276  default:
277  return 0;
278  }
279  }

References findBinCrystal_(), findBinPseudoStrip_(), findBinRCT_(), findBinSuperCrystal_(), findBinTriggerTower_(), kCrystal, kPseudoStrip, kRCT, kSuperCrystal, kTriggerTower, nObjType, and nPresetBinnings.

Referenced by ecaldqm::MESet::const_iterator::const_iterator(), ecaldqm::MESetDet2D::fill(), ecaldqm::MESetDet2D::findBin(), ecaldqm::MESetDet2D::getBinContent(), ecaldqm::MESetDet2D::getBinEntries(), ecaldqm::MESetDet2D::getBinError(), ecaldqm::MESetDet2D::setBinContent(), ecaldqm::MESetDet2D::setBinEntries(), and ecaldqm::MESetDet2D::setBinError().

◆ findBin2D() [2/3]

int ecaldqm::binning::findBin2D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
EcalElectronicsId const &  _id 
)

Definition at line 281 of file MESetBinningUtils.cc.

284  {
285  if (_otype >= nObjType || _btype >= unsigned(nPresetBinnings))
286  return 0;
287 
288  switch (_btype) {
289  case kCrystal:
290  return findBinCrystal_(electronicsMap, _otype, _id);
291  break;
292  case kSuperCrystal:
293  return findBinSuperCrystal_(electronicsMap, _otype, _id);
294  break;
295  default:
296  return 0;
297  }
298  }

References findBinCrystal_(), findBinSuperCrystal_(), kCrystal, kSuperCrystal, nObjType, and nPresetBinnings.

◆ findBin2D() [3/3]

int ecaldqm::binning::findBin2D ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
int  _dccid 
)

Definition at line 300 of file MESetBinningUtils.cc.

300  {
301  if (_otype != kEcal || _btype != kDCC)
302  return 0;
303 
304  int nbinsX(9);
305  unsigned iDCC(_dccid - 1);
306  int xbin(0);
307  if (iDCC <= kEEmHigh || iDCC >= kEEpLow)
308  xbin = (iDCC + 6) % nbinsX + 1;
309  else
310  xbin = iDCC % nbinsX + 1;
311  int ybin(6 - iDCC / nbinsX);
312 
313  return (nbinsX + 2) * ybin + xbin;
314  }

References kDCC, kEcal, ecaldqm::kEEpLow, and hlt_dqm_clientPB-live_cfg::nbinsX.

◆ findBinCrystal_() [1/2]

int ecaldqm::binning::findBinCrystal_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
DetId const &  _id,
int  _iSM = -1 
)

Definition at line 430 of file MESetBinningUtils2.cc.

433  {
434  int xbin(0), ybin(0);
435  int nbinsX(0);
436  int subdet(_id.subdetId());
437 
438  if (subdet == EcalBarrel) {
439  EBDetId ebid(_id);
440  int iphi(ebid.iphi());
441  int ieta(ebid.ieta());
442  switch (_otype) {
443  case kEB:
444  xbin = iphi;
445  ybin = ieta < 0 ? ieta + 86 : ieta + 85;
446  nbinsX = 360;
447  break;
448  case kSM:
449  case kEBSM:
450  xbin = ieta < 0 ? -ieta : ieta;
451  ybin = ieta < 0 ? (iphi - 1) % 20 + 1 : 20 - (iphi - 1) % 20;
452  nbinsX = nEBSMEta;
453  break;
454  default:
455  break;
456  }
457  } else if (subdet == EcalEndcap) {
458  EEDetId eeid(_id);
459  int ix(eeid.ix());
460  int iy(eeid.iy());
461  switch (_otype) {
462  case kEE:
463  xbin = eeid.zside() < 0 ? ix : ix + 100;
464  ybin = iy;
465  nbinsX = 200;
466  break;
467  case kEEm:
468  case kEEp:
469  xbin = ix;
470  ybin = iy;
471  nbinsX = 100;
472  break;
473  case kSM:
474  case kEESM: {
475  int iSM(_iSM >= 0 ? _iSM : dccId(_id, electronicsMap) - 1);
476  xbin = ix - xlow_(iSM);
477  ybin = iy - ylow_(iSM);
478  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
479  nbinsX = nEESMXExt;
480  else if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
481  nbinsX = nEESMXRed;
482  else
483  nbinsX = nEESMX;
484  } break;
485  default:
486  break;
487  }
488  } else if (subdet == EcalLaserPnDiode) {
489  EcalPnDiodeDetId pnid(_id);
490  switch (_otype) {
491  case kSMMEM:
492  case kEBSMMEM:
493  case kEESMMEM:
494  xbin = pnid.iPnId();
495  ybin = 1;
496  nbinsX = 10;
497  break;
498  case kMEM:
499  xbin = memDCCIndex(dccId(_id, electronicsMap)) + 1;
500  ybin = pnid.iPnId();
501  nbinsX = 44;
502  break;
503  case kEBMEM:
504  xbin = memDCCIndex(dccId(_id, electronicsMap)) - 3;
505  ybin = pnid.iPnId();
506  nbinsX = 36;
507  break;
508  case kEEMEM:
509  xbin = memDCCIndex(dccId(_id, electronicsMap)) + 1;
510  if (xbin > kEEmHigh + 1)
511  xbin -= 36;
512  ybin = pnid.iPnId();
513  nbinsX = 8;
514  break;
515  default:
516  break;
517  }
518  }
519 
520  return (nbinsX + 2) * ybin + xbin;
521  }

References ecaldqm::dccId(), EcalBarrel, EcalEndcap, EcalLaserPnDiode, EBDetId::ieta(), LEDCalibrationChannels::ieta, EBDetId::iphi(), LEDCalibrationChannels::iphi, EcalPnDiodeDetId::iPnId(), EEDetId::ix(), EEDetId::iy(), kEB, kEBMEM, kEBSM, kEBSMMEM, kEE, kEEm, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm05, ecaldqm::kEEm08, ecaldqm::kEEm09, kEEMEM, ecaldqm::kEEmHigh, kEEp, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp05, ecaldqm::kEEp08, ecaldqm::kEEp09, kEESM, kEESMMEM, kMEM, kSM, kSMMEM, ecaldqm::memDCCIndex(), hlt_dqm_clientPB-live_cfg::nbinsX, nEBSMEta, nEESMX, nEESMXExt, nEESMXRed, DetId::subdetId(), xlow_(), ylow_(), and EEDetId::zside().

Referenced by findBin2D(), findBinCrystal_(), findBinPseudoStrip_(), and findBinTriggerTower_().

◆ findBinCrystal_() [2/2]

int ecaldqm::binning::findBinCrystal_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
EcalElectronicsId const &  _id 
)

Definition at line 523 of file MESetBinningUtils2.cc.

523  {
524  return findBinCrystal_(electronicsMap, _otype, electronicsMap->getDetId(_id));
525  }

References findBinCrystal_(), and EcalElectronicsMapping::getDetId().

◆ findBinPseudoStrip_()

int ecaldqm::binning::findBinPseudoStrip_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
DetId const &  _id 
)

Definition at line 586 of file MESetBinningUtils2.cc.

586  {
587  int xbin(0);
588  int ybin(0);
589  int nbinsX(0);
590  int subdet(_id.subdetId());
591 
592  if ((subdet == EcalTriggerTower && !isEndcapTTId(_id)) || subdet == EcalBarrel) {
593  return findBinTriggerTower_(electronicsMap, _otype, _id);
594  } else if (subdet == EcalEndcap) {
595  unsigned tccid(tccId(_id, electronicsMap));
596  unsigned iSM(tccid <= 36 ? tccid % 18 / 2 : (tccid - 72) % 18 / 2);
597  return findBinCrystal_(electronicsMap, _otype, _id, iSM);
598  }
599 
600  return (nbinsX + 2) * ybin + xbin;
601  }

References EcalBarrel, EcalEndcap, EcalTriggerTower, findBinCrystal_(), findBinTriggerTower_(), ecaldqm::isEndcapTTId(), hlt_dqm_clientPB-live_cfg::nbinsX, DetId::subdetId(), and ecaldqm::tccId().

Referenced by findBin2D().

◆ findBinRCT_()

int ecaldqm::binning::findBinRCT_ ( ObjectType  _otype,
DetId const &  _id 
)

Definition at line 527 of file MESetBinningUtils2.cc.

527  {
528  int xbin(0);
529  int ybin(0);
530  int nbinsX(0);
531 
532  EcalTrigTowerDetId ttid(_id);
533  int ieta(ttid.ieta());
534  int iphi((ttid.iphi() + 1) % 72 + 1);
535 
536  xbin = ieta < 0 ? ieta + 33 : ieta + 32;
537  ybin = iphi;
538  nbinsX = 64;
539 
540  return (nbinsX + 2) * ybin + xbin;
541  }

References EcalTrigTowerDetId::ieta(), LEDCalibrationChannels::ieta, EcalTrigTowerDetId::iphi(), LEDCalibrationChannels::iphi, and hlt_dqm_clientPB-live_cfg::nbinsX.

Referenced by findBin2D().

◆ findBinSuperCrystal_() [1/2]

int ecaldqm::binning::findBinSuperCrystal_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
DetId const &  _id,
int  _iSM = -1 
)

Definition at line 603 of file MESetBinningUtils2.cc.

606  {
607  int xbin(0);
608  int ybin(0);
609  int nbinsX(0);
610  int subdet(_id.subdetId());
611 
612  if (subdet == EcalBarrel) {
613  EBDetId ebid(_id);
614  int iphi(ebid.iphi());
615  int ieta(ebid.ieta());
616  switch (_otype) {
617  case kEB:
618  xbin = (iphi - 1) / 5 + 1;
619  ybin = (ieta < 0 ? ieta + 85 : ieta + 84) / 5 + 1;
620  nbinsX = 72;
621  break;
622  case kSM:
623  case kEBSM:
624  xbin = (ieta < 0 ? -ieta - 1 : ieta - 1) / 5 + 1;
625  ybin = (ieta < 0 ? (iphi - 1) % 20 : 19 - (iphi - 1) % 20) / 5 + 1;
626  nbinsX = nEBSMEta / 5;
627  break;
628  default:
629  break;
630  }
631  } else if (subdet == EcalEndcap) {
632  if (isEcalScDetId(_id)) {
633  EcalScDetId scid(_id);
634  int ix(scid.ix());
635  int iy(scid.iy());
636  switch (_otype) {
637  case kEE: {
638  int zside(scid.zside());
639  xbin = zside < 0 ? ix : ix + 20;
640  ybin = iy;
641  nbinsX = 40;
642  } break;
643  case kEEm:
644  case kEEp:
645  xbin = ix;
646  ybin = iy;
647  nbinsX = 20;
648  break;
649  case kSM:
650  case kEESM: {
651  int iSM(_iSM >= 0 ? _iSM : dccId(_id, electronicsMap) - 1);
652  xbin = ix - xlow_(iSM) / 5;
653  ybin = iy - ylow_(iSM) / 5;
654  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
655  nbinsX = nEESMXExt / 5;
656  else if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 ||
657  iSM == kEEp09)
658  nbinsX = nEESMXRed / 5;
659  else
660  nbinsX = nEESMX / 5;
661  } break;
662  default:
663  break;
664  }
665  } else {
666  EEDetId eeid(_id);
667  int ix(eeid.ix());
668  int iy(eeid.iy());
669  switch (_otype) {
670  case kEE:
671  xbin = (eeid.zside() < 0 ? ix - 1 : ix + 99) / 5 + 1;
672  ybin = (iy - 1) / 5 + 1;
673  nbinsX = 40;
674  break;
675  case kEEm:
676  case kEEp:
677  xbin = (ix - 1) / 5 + 1;
678  ybin = (iy - 1) / 5 + 1;
679  nbinsX = 20;
680  break;
681  case kSM:
682  case kEESM: {
683  int iSM(_iSM >= 0 ? _iSM : dccId(_id, electronicsMap) - 1);
684  xbin = (ix - xlow_(iSM) - 1) / 5 + 1;
685  ybin = (iy - ylow_(iSM) - 1) / 5 + 1;
686  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
687  nbinsX = nEESMXExt / 5;
688  else if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 ||
689  iSM == kEEp09)
690  nbinsX = nEESMXRed / 5;
691  else
692  nbinsX = nEESMX / 5;
693  } break;
694  default:
695  break;
696  }
697  }
698  } else if (subdet == EcalTriggerTower && !isEndcapTTId(_id)) {
699  EcalTrigTowerDetId ttid(_id);
700  int ieta(ttid.ieta());
701  int iphi((ttid.iphi() + 1) % 72 + 1);
702  switch (_otype) {
703  case kEB:
704  xbin = iphi;
705  ybin = ieta < 0 ? ieta + 18 : ieta + 17;
706  nbinsX = 72;
707  break;
708  case kSM:
709  case kEBSM:
710  xbin = ieta < 0 ? -ieta : ieta;
711  ybin = ieta < 0 ? (iphi - 1) % 4 + 1 : 4 - (iphi - 1) % 4;
712  nbinsX = nEBSMEta / 5;
713  break;
714  default:
715  break;
716  }
717  }
718 
719  return (nbinsX + 2) * ybin + xbin;
720  }

References ecaldqm::dccId(), EcalBarrel, EcalEndcap, EcalTriggerTower, EcalTrigTowerDetId::ieta(), EBDetId::ieta(), LEDCalibrationChannels::ieta, EBDetId::iphi(), EcalTrigTowerDetId::iphi(), LEDCalibrationChannels::iphi, ecaldqm::isEcalScDetId(), ecaldqm::isEndcapTTId(), EcalScDetId::ix(), EEDetId::ix(), EcalScDetId::iy(), EEDetId::iy(), kEB, kEBSM, kEE, kEEm, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm05, ecaldqm::kEEm08, ecaldqm::kEEm09, kEEp, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp05, ecaldqm::kEEp08, ecaldqm::kEEp09, kEESM, kSM, hlt_dqm_clientPB-live_cfg::nbinsX, nEBSMEta, nEESMX, nEESMXExt, nEESMXRed, DetId::subdetId(), xlow_(), ylow_(), EcalScDetId::zside(), EEDetId::zside(), and ecaldqm::zside().

Referenced by findBin2D(), and findBinSuperCrystal_().

◆ findBinSuperCrystal_() [2/2]

int ecaldqm::binning::findBinSuperCrystal_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
EcalElectronicsId const &  _id 
)

Definition at line 722 of file MESetBinningUtils2.cc.

724  {
725  int xbin(0);
726  int ybin(0);
727  int nbinsX(0);
728  int iDCC(_id.dccId() - 1);
729 
730  if (iDCC >= kEBmLow && iDCC <= kEBpHigh) {
731  unsigned towerid(_id.towerId());
732  bool isEBm(iDCC <= kEBmHigh);
733  switch (_otype) {
734  case kEB:
735  xbin = 4 * ((iDCC - 9) % 18) + (isEBm ? towerid - 1 : 68 - towerid) % 4 + 1;
736  ybin = (towerid - 1) / 4 * (isEBm ? -1 : 1) + (isEBm ? 18 : 17);
737  nbinsX = 72;
738  break;
739  case kSM:
740  case kEBSM:
741  xbin = (towerid - 1) / 4 + 1;
742  //In by SM plots, using towerid, the ybinning always increases from 1 to 4,
743  //whereas using iphi it flips for EB- and EB+
744  ybin = (towerid - 1) % 4 + 1;
745  nbinsX = 17;
746  break;
747  default:
748  break;
749  }
750  } else {
751  return findBinSuperCrystal_(electronicsMap, _otype, EEDetId(electronicsMap->getDetId(_id)).sc());
752  }
753 
754  return (nbinsX + 2) * ybin + xbin;
755  }

References EcalElectronicsId::dccId(), findBinSuperCrystal_(), EcalElectronicsMapping::getDetId(), kEB, ecaldqm::kEBmHigh, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, kEBSM, kSM, hlt_dqm_clientPB-live_cfg::nbinsX, and EcalElectronicsId::towerId().

◆ findBinTriggerTower_()

int ecaldqm::binning::findBinTriggerTower_ ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
DetId const &  _id 
)

Definition at line 543 of file MESetBinningUtils2.cc.

543  {
544  int xbin(0);
545  int ybin(0);
546  int nbinsX(0);
547  int subdet(_id.subdetId());
548 
549  if ((subdet == EcalTriggerTower && !isEndcapTTId(_id)) || subdet == EcalBarrel) {
550  EcalTrigTowerDetId ttid;
551  if (subdet == EcalBarrel)
552  ttid = EBDetId(_id).tower();
553  else
554  ttid = _id;
555 
556  int ieta(ttid.ieta());
557  int iphi((ttid.iphi() + 1) % 72 + 1);
558  switch (_otype) {
559  case kEB:
560  xbin = iphi;
561  ybin = ieta < 0 ? ieta + 18 : ieta + 17;
562  nbinsX = 72;
563  break;
564  case kSM:
565  case kEBSM:
566  xbin = ieta < 0 ? -ieta : ieta;
567  ybin = ieta < 0 ? (iphi - 1) % 4 + 1 : 4 - (iphi - 1) % 4;
568  nbinsX = 17;
569  break;
570  case kEcal:
571  xbin = ieta < 0 ? ieta + 33 : ieta + 32;
572  ybin = iphi > 70 ? iphi - 70 : iphi + 2;
573  nbinsX = 64;
574  default:
575  break;
576  }
577  } else if (subdet == EcalEndcap) {
578  unsigned tccid(tccId(_id, electronicsMap));
579  unsigned iSM(tccid <= 36 ? tccid % 18 / 2 : (tccid - 72) % 18 / 2);
580  return findBinCrystal_(electronicsMap, _otype, _id, iSM);
581  }
582 
583  return (nbinsX + 2) * ybin + xbin;
584  }

References EcalBarrel, EcalEndcap, EcalTriggerTower, findBinCrystal_(), EcalTrigTowerDetId::ieta(), LEDCalibrationChannels::ieta, EcalTrigTowerDetId::iphi(), LEDCalibrationChannels::iphi, ecaldqm::isEndcapTTId(), kEB, kEBSM, kEcal, kSM, hlt_dqm_clientPB-live_cfg::nbinsX, DetId::subdetId(), ecaldqm::tccId(), and EBDetId::tower().

Referenced by findBin2D(), and findBinPseudoStrip_().

◆ findPlotIndex() [1/3]

unsigned ecaldqm::binning::findPlotIndex ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
DetId const &  _id 
)

Definition at line 316 of file MESetBinningUtils.cc.

316  {
317  if (getNObjects(_otype) == 1)
318  return 0;
319 
320  switch (_otype) {
321  case kEcal3P:
322  if (_id.subdetId() == EcalBarrel)
323  return 1;
324  else if (_id.subdetId() == EcalEndcap && zside(_id) > 0)
325  return 2;
326  else if (_id.subdetId() == EcalTriggerTower) {
327  if (!isEndcapTTId(_id))
328  return 1;
329  else {
330  if (zside(_id) > 0)
331  return 2;
332  else
333  return 0;
334  }
335  } else
336  return 0;
337 
338  case kEcal2P:
339  if (_id.subdetId() == EcalBarrel)
340  return 1;
341  else if (_id.subdetId() == EcalTriggerTower && !isEndcapTTId(_id))
342  return 1;
343  else
344  return 0;
345 
346  case kEE2P:
347  if (zside(_id) > 0)
348  return 1;
349  else
350  return 0;
351 
352  case kMEM2P:
353  if (_id.subdetId() == EcalLaserPnDiode) {
354  unsigned iDCC(dccId(_id, electronicsMap) - 1);
355  if (iDCC >= kEBmLow && iDCC <= kEBpHigh)
356  return 1;
357  else
358  return 0;
359  } else
360  return -1;
361 
362  default:
363  return findPlotIndex(electronicsMap, _otype, dccId(_id, electronicsMap));
364  }
365  }

References ecaldqm::dccId(), EcalBarrel, EcalEndcap, EcalLaserPnDiode, EcalTriggerTower, getNObjects(), ecaldqm::isEndcapTTId(), ecaldqm::kEBmLow, ecaldqm::kEBpHigh, kEcal2P, kEcal3P, kEE2P, kMEM2P, DetId::subdetId(), and ecaldqm::zside().

Referenced by ecaldqm::MESet::const_iterator::const_iterator(), ecaldqm::MESetDet0D::fill(), ecaldqm::MESetProjection::fill(), ecaldqm::MESetDet2D::fill(), ecaldqm::MESetDet1D::fill(), ecaldqm::MESetTrend::fill(), ecaldqm::MESetEcal::fill(), ecaldqm::MESetTrend::findBin(), ecaldqm::MESetDet2D::findBin(), ecaldqm::MESetDet1D::findBin(), ecaldqm::MESetEcal::findBin(), findPlotIndex(), ecaldqm::MESetDet0D::getBinContent(), ecaldqm::MESetProjection::getBinContent(), ecaldqm::MESetDet2D::getBinContent(), ecaldqm::MESetEcal::getBinContent(), ecaldqm::MESetDet1D::getBinContent(), ecaldqm::MESetProjection::getBinEntries(), ecaldqm::MESetDet2D::getBinEntries(), ecaldqm::MESetDet1D::getBinEntries(), ecaldqm::MESetEcal::getBinEntries(), ecaldqm::MESetProjection::getBinError(), ecaldqm::MESetDet2D::getBinError(), ecaldqm::MESetEcal::getBinError(), ecaldqm::MESetDet1D::getBinError(), ecaldqm::MESetProjection::setBinContent(), ecaldqm::MESetDet2D::setBinContent(), ecaldqm::MESetDet1D::setBinContent(), ecaldqm::MESetEcal::setBinContent(), ecaldqm::MESetProjection::setBinEntries(), ecaldqm::MESetDet2D::setBinEntries(), ecaldqm::MESetDet1D::setBinEntries(), ecaldqm::MESetEcal::setBinEntries(), ecaldqm::MESetProjection::setBinError(), ecaldqm::MESetDet2D::setBinError(), ecaldqm::MESetDet1D::setBinError(), and ecaldqm::MESetEcal::setBinError().

◆ findPlotIndex() [2/3]

unsigned ecaldqm::binning::findPlotIndex ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
EcalElectronicsId const &  _id 
)

Definition at line 367 of file MESetBinningUtils.cc.

369  {
370  if (getNObjects(_otype) == 1)
371  return 0;
372 
373  return findPlotIndex(electronicsMap, _otype, _id.dccId());
374  }

References EcalElectronicsId::dccId(), findPlotIndex(), and getNObjects().

◆ findPlotIndex() [3/3]

unsigned ecaldqm::binning::findPlotIndex ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
int  _dcctccid,
BinningType  _btype = kDCC 
)

Definition at line 376 of file MESetBinningUtils.cc.

379  {
380  if (getNObjects(_otype) == 1)
381  return 0;
382 
383  int iSM(_dcctccid - 1);
384 
385  switch (_otype) {
386  case kSM:
387  if (_btype == kPseudoStrip) {
388  iSM = iSM <= kEEmTCCHigh ? (iSM + 1) % 18 / 2
389  : iSM >= kEEpTCCLow ? (iSM + 1 - 72) % 18 / 2 + 45
390  : (iSM + 1) - kEEmTCCHigh;
391  return iSM;
392  } else
393  return iSM;
394 
395  case kEBSM:
396  return iSM - 9;
397 
398  case kEESM:
399  if (iSM <= kEEmHigh)
400  return iSM;
401  else
402  return iSM - nEBDCC;
403 
404  case kSMMEM:
405  return memDCCIndex(_dcctccid);
406 
407  case kEBSMMEM:
408  return memDCCIndex(_dcctccid) - nEEDCCMEM / 2;
409 
410  case kEESMMEM:
411  if (iSM <= kEEmHigh)
412  return memDCCIndex(_dcctccid);
413  else
414  return memDCCIndex(_dcctccid) - nEBDCC;
415 
416  case kEcal2P:
417  if (_btype == kDCC) {
418  if (iSM <= kEEmHigh || iSM >= kEEpLow)
419  return 0;
420  else
421  return 1;
422  } else if (_btype == kTCC) {
423  if (iSM <= kEEmTCCHigh || iSM >= kEEpTCCLow)
424  return 0;
425  else
426  return 1;
427  } else {
428  if (iSM == EcalBarrel - 1)
429  return 1;
430  else
431  return 0;
432  }
433 
434  case kEcal3P:
435  if (_btype == kDCC) {
436  if (iSM <= kEEmHigh)
437  return 0;
438  else if (iSM <= kEBpHigh)
439  return 1;
440  else
441  return 2;
442  } else if (_btype == kTCC) {
443  if (iSM <= kEEmTCCHigh)
444  return 0;
445  else if (iSM <= kEBTCCHigh)
446  return 1;
447  else
448  return 2;
449  } else {
450  if (iSM == -EcalEndcap - 1)
451  return 0;
452  else if (iSM == EcalBarrel - 1)
453  return 1;
454  else
455  return 2;
456  }
457 
458  case kEE2P:
459  if (_btype == kDCC) {
460  if (iSM >= kEEpLow)
461  return 1;
462  else
463  return 0;
464  } else {
465  if (iSM >= kEEpTCCLow)
466  return 1;
467  else
468  return 0;
469  }
470 
471  case kMEM2P:
472  if (_btype == kDCC) {
473  if (iSM <= kEEmHigh || iSM >= kEEpLow)
474  return 0;
475  else
476  return 1;
477  } else if (_btype == kTCC)
478  return -1;
479  else {
480  if (iSM == kEB)
481  return 1;
482  else
483  return 0;
484  }
485  default:
486  return -1;
487  }
488  }

References EcalBarrel, EcalEndcap, getNObjects(), kDCC, kEB, ecaldqm::kEBpHigh, kEBSM, kEBSMMEM, ecaldqm::kEBTCCHigh, kEcal2P, kEcal3P, kEE2P, ecaldqm::kEEmHigh, ecaldqm::kEEmTCCHigh, ecaldqm::kEEpLow, ecaldqm::kEEpTCCLow, kEESM, kEESMMEM, kMEM2P, kPseudoStrip, kSM, kSMMEM, kTCC, ecaldqm::memDCCIndex(), ecaldqm::nEBDCC, and ecaldqm::nEEDCCMEM.

◆ formAxis()

AxisSpecs ecaldqm::binning::formAxis ( edm::ParameterSet const &  _axisParams)

Definition at line 829 of file MESetBinningUtils.cc.

829  {
830  AxisSpecs axis;
831 
832  if (_axisParams.existsAs<std::vector<double>>("edges", false)) {
833  std::vector<double> const &vEdges(_axisParams.getUntrackedParameter<std::vector<double>>("edges"));
834  axis.nbins = vEdges.size() - 1;
835  axis.edges = new float[vEdges.size()];
836  std::copy(vEdges.begin(), vEdges.end(), axis.edges);
837  } else {
838  axis.nbins = _axisParams.getUntrackedParameter<int>("nbins");
839  axis.low = _axisParams.getUntrackedParameter<double>("low");
840  bool highSet(_axisParams.existsAs<double>("high", false));
841  bool perBinSet(_axisParams.existsAs<double>("unitsPerBin", false));
842  if (highSet) {
843  if (perBinSet)
844  edm::LogWarning("EcalDQM") << "Maximum and bin width both set in an axis; using the former";
845  axis.high = _axisParams.getUntrackedParameter<double>("high");
846  } else if (perBinSet)
847  axis.high = axis.low + _axisParams.getUntrackedParameter<double>("unitsPerBin") * axis.nbins;
848  else
849  axis.high = 0.;
850  }
851 
852  if (_axisParams.existsAs<std::vector<std::string>>("labels", false)) {
853  std::vector<std::string> const &labels(_axisParams.getUntrackedParameter<std::vector<std::string>>("labels"));
854  if (int(labels.size()) == axis.nbins) {
855  axis.labels = new std::string[axis.nbins];
856  for (int iB(0); iB != axis.nbins; ++iB)
857  axis.labels[iB] = labels[iB];
858  }
859  }
860 
861  axis.title = _axisParams.getUntrackedParameter<std::string>("title");
862 
863  return axis;
864  }

References filterCSVwithJSON::copy, ecaldqm::binning::AxisSpecs::edges, edm::ParameterSet::existsAs(), edm::ParameterSet::getUntrackedParameter(), ecaldqm::binning::AxisSpecs::high, SummaryClient_cfi::labels, ecaldqm::binning::AxisSpecs::labels, ecaldqm::binning::AxisSpecs::low, ecaldqm::binning::AxisSpecs::nbins, AlCaHLTBitMon_QueryRunRegistry::string, and ecaldqm::binning::AxisSpecs::title.

Referenced by ecaldqm::createMESet().

◆ getBinning()

AxisSpecs ecaldqm::binning::getBinning ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
bool  _isMap,
int  _axis,
unsigned  _iME 
)

Definition at line 14 of file MESetBinningUtils.cc.

19  {
20  if (_otype >= nObjType || _btype >= unsigned(nPresetBinnings))
21  return AxisSpecs(); // you are on your own
22 
23  switch (_otype) {
24  case kEB:
25  return getBinningEB_(_btype, _isMap, _axis);
26  case kEE:
27  return getBinningEE_(_btype, _isMap, 0, _axis);
28  case kEEm:
29  return getBinningEE_(_btype, _isMap, -1, _axis);
30  case kEEp:
31  return getBinningEE_(_btype, _isMap, 1, _axis);
32  case kSM:
33  return getBinningSM_(_btype, _isMap, _iME, _axis, electronicsMap);
34  case kEBSM:
35  return getBinningSM_(_btype, _isMap, _iME + 9, _axis, electronicsMap);
36  case kEESM:
37  if (_iME <= kEEmHigh)
38  return getBinningSM_(_btype, _isMap, _iME, _axis, electronicsMap);
39  else
40  return getBinningSM_(_btype, _isMap, _iME + nEBDCC, _axis, electronicsMap);
41  case kSMMEM:
42  return getBinningSMMEM_(_btype, _isMap, _iME, _axis);
43  case kEBSMMEM:
44  return getBinningSMMEM_(_btype, _isMap, _iME + nEEDCCMEM / 2, _axis);
45  case kEESMMEM:
46  if (_iME <= kEEmHigh)
47  return getBinningSMMEM_(_btype, _isMap, _iME, _axis);
48  else
49  return getBinningSMMEM_(_btype, _isMap, _iME + nEBDCC, _axis);
50  case kEcal:
51  return getBinningEcal_(_btype, _isMap, _axis);
52  case kMEM:
53  return getBinningMEM_(_btype, _isMap, -1, _axis);
54  case kEBMEM:
55  return getBinningMEM_(_btype, _isMap, EcalBarrel, _axis);
56  case kEEMEM:
57  return getBinningMEM_(_btype, _isMap, EcalEndcap, _axis);
58  default:
59  return AxisSpecs();
60  }
61  }

References EcalBarrel, EcalEndcap, getBinningEB_(), getBinningEcal_(), getBinningEE_(), getBinningMEM_(), getBinningSM_(), getBinningSMMEM_(), kEB, kEBMEM, kEBSM, kEBSMMEM, kEcal, kEE, kEEm, kEEMEM, ecaldqm::kEEmHigh, kEEp, kEESM, kEESMMEM, kMEM, kSM, kSMMEM, ecaldqm::nEBDCC, ecaldqm::nEEDCCMEM, nObjType, and nPresetBinnings.

Referenced by ecaldqm::MESetEcal::book().

◆ getBinningEB_()

AxisSpecs ecaldqm::binning::getBinningEB_ ( BinningType  _btype,
bool  _isMap,
int  _axis 
)

Definition at line 89 of file MESetBinningUtils2.cc.

89  {
90  AxisSpecs specs;
91 
92  if (!_isMap) {
93  switch (_btype) {
94  case kTCC:
95  specs.nbins = 36;
96  specs.low = 9.;
97  specs.high = 45.;
98  specs.title = "iTCC";
99  break;
100  case kDCC:
101  specs.nbins = 36;
102  specs.low = 9.;
103  specs.high = 45.;
104  break;
105  case kProjEta:
106  specs.nbins = nEBEtaBins;
107  specs.low = -etaBound;
108  specs.high = etaBound;
109  specs.title = "eta";
110  break;
111  case kProjPhi:
112  specs.nbins = nPhiBins;
113  specs.low = -TMath::Pi() / 18.;
114  specs.high = TMath::Pi() * 35. / 18.;
115  specs.title = "phi";
116  break;
117  default:
118  break;
119  }
120  } else {
121  switch (_btype) {
122  case kCrystal:
123  if (_axis == 1)
124  specs.nbins = 360;
125  else if (_axis == 2)
126  specs.nbins = 170;
127  break;
128  case kSuperCrystal:
129  case kTriggerTower:
130  case kPseudoStrip:
131  if (_axis == 1)
132  specs.nbins = 72;
133  else if (_axis == 2)
134  specs.nbins = 34;
135  break;
136  default:
137  return specs;
138  }
139 
140  if (_axis == 1) {
141  specs.low = 0.;
142  specs.high = 360.;
143  specs.title = "iphi";
144  } else if (_axis == 2) {
145  specs.low = -85.;
146  specs.high = 85.;
147  specs.title = "ieta";
148  }
149  }
150 
151  return specs;
152  }

References ecaldqm::etaBound, kCrystal, kDCC, kProjEta, kProjPhi, kPseudoStrip, kSuperCrystal, kTCC, kTriggerTower, nEBEtaBins, nPhiBins, Pi, and HistogramManager_cfi::specs.

Referenced by getBinning().

◆ getBinningEcal_()

AxisSpecs ecaldqm::binning::getBinningEcal_ ( BinningType  _btype,
bool  _isMap,
int  _axis 
)

Definition at line 333 of file MESetBinningUtils2.cc.

333  {
334  AxisSpecs specs;
335 
336  if (!_isMap) {
337  switch (_btype) {
338  case kTCC:
339  specs.nbins = 108;
340  specs.low = 0.;
341  specs.high = 108.;
342  specs.title = "iTCC";
343  break;
344  case kDCC:
345  specs.nbins = 54;
346  specs.low = 0.;
347  specs.high = 54.;
348  specs.title = "iDCC";
349  break;
350  case kProjEta:
351  specs.nbins = nEBEtaBins + 2 * nEEEtaBins;
352  specs.edges = new float[specs.nbins + 1];
353  for (int i(0); i <= nEEEtaBins; i++)
354  specs.edges[i] = -3. + (3. - etaBound) / nEEEtaBins * i;
355  for (int i(1); i <= nEBEtaBins; i++)
356  specs.edges[i + nEEEtaBins] = -etaBound + 2. * etaBound / nEBEtaBins * i;
357  for (int i(1); i <= nEEEtaBins; i++)
358  specs.edges[i + nEEEtaBins + nEBEtaBins] = etaBound + (3. - etaBound) / nEEEtaBins * i;
359  specs.title = "eta";
360  break;
361  case kProjPhi:
362  specs.nbins = nPhiBins;
363  specs.low = -TMath::Pi() / 18.;
364  specs.high = TMath::Pi() * 35. / 18.;
365  specs.title = "phi";
366  break;
367  default:
368  break;
369  }
370  } else {
371  switch (_btype) {
372  case kDCC:
373  if (_axis == 1) {
374  specs.nbins = 9;
375  specs.low = 0.;
376  specs.high = 9.;
377  } else if (_axis == 2) {
378  specs.nbins = 6;
379  specs.low = 0.;
380  specs.high = 6.;
381  }
382  break;
383  case kRCT:
384  if (_axis == 1) {
385  specs.nbins = 64;
386  specs.low = -32.;
387  specs.high = 32.;
388  specs.title = "RCT iEta";
389  } else if (_axis == 2) {
390  specs.nbins = 72;
391  specs.low = 0.;
392  specs.high = 72.;
393  specs.title = "RCT Phi";
394  }
395  break;
396  default:
397  break;
398  }
399  }
400 
401  return specs;
402  }

References ecaldqm::etaBound, cms::cuda::for(), mps_fire::i, kDCC, kProjEta, kProjPhi, kRCT, kTCC, nEBEtaBins, nEEEtaBins, nPhiBins, Pi, and HistogramManager_cfi::specs.

Referenced by getBinning().

◆ getBinningEE_()

AxisSpecs ecaldqm::binning::getBinningEE_ ( BinningType  _btype,
bool  _isMap,
int  _zside,
int  _axis 
)

Definition at line 154 of file MESetBinningUtils2.cc.

154  {
155  AxisSpecs specs;
156 
157  if (!_isMap) {
158  switch (_btype) {
159  case kTCC:
160  specs.nbins = _zside ? 36 : 72;
161  specs.low = 0.;
162  specs.high = _zside ? 36. : 72.;
163  specs.title = "iTCC";
164  break;
165  case kDCC:
166  specs.nbins = _zside ? 9 : 18;
167  specs.low = 0.;
168  specs.high = _zside ? 9. : 18.;
169  break;
170  case kProjEta:
171  if (_zside == 0) {
172  specs.nbins = nEEEtaBins / (3. - etaBound) * 6.;
173  specs.low = -3.;
174  specs.high = 3.;
175  } else {
176  specs.nbins = nEEEtaBins;
177  specs.low = _zside < 0 ? -3. : etaBound;
178  specs.high = _zside < 0 ? -etaBound : 3.;
179  }
180  specs.title = "eta";
181  break;
182  case kProjPhi:
183  specs.nbins = nPhiBins;
184  specs.low = -TMath::Pi() / 18.;
185  specs.high = TMath::Pi() * 35. / 18.;
186  specs.title = "phi";
187  break;
188  default:
189  break;
190  }
191  } else {
192  switch (_btype) {
193  case kCrystal:
194  case kTriggerTower:
195  case kPseudoStrip:
196  if (_axis == 1)
197  specs.nbins = _zside ? 100 : 200;
198  if (_axis == 2)
199  specs.nbins = 100;
200  break;
201  case kSuperCrystal:
202  if (_axis == 1)
203  specs.nbins = _zside ? 20 : 40;
204  if (_axis == 2)
205  specs.nbins = 20;
206  break;
207  default:
208  return specs;
209  }
210 
211  if (_axis == 1) {
212  specs.low = 0.;
213  specs.high = _zside ? 100. : 200.;
214  specs.title = "ix";
215  } else if (_axis == 2) {
216  specs.low = 0.;
217  specs.high = 100.;
218  specs.title = "iy";
219  }
220  }
221 
222  return specs;
223  }

References ecaldqm::etaBound, kCrystal, kDCC, kProjEta, kProjPhi, kPseudoStrip, kSuperCrystal, kTCC, kTriggerTower, nEEEtaBins, nPhiBins, Pi, and HistogramManager_cfi::specs.

Referenced by getBinning().

◆ getBinningMEM_()

AxisSpecs ecaldqm::binning::getBinningMEM_ ( BinningType  _btype,
bool  _isMap,
int  _subdet,
int  _axis 
)

Definition at line 404 of file MESetBinningUtils2.cc.

404  {
405  AxisSpecs specs;
406 
407  if (_btype != kCrystal)
408  return specs;
409 
410  int nbins(44);
411  if (_subdet == EcalBarrel)
412  nbins = 36;
413  else if (_subdet == EcalEndcap)
414  nbins = 8;
415 
416  if (_axis == 1) {
417  specs.nbins = nbins;
418  specs.low = 0.;
419  specs.high = nbins;
420  } else if (_axis == 2) {
421  specs.nbins = 10;
422  specs.low = 0.;
423  specs.high = 10.;
424  specs.title = "iPN";
425  }
426 
427  return specs;
428  }

References EcalBarrel, EcalEndcap, kCrystal, LaserClient_cfi::nbins, and HistogramManager_cfi::specs.

Referenced by getBinning().

◆ getBinningSM_()

AxisSpecs ecaldqm::binning::getBinningSM_ ( BinningType  _btype,
bool  _isMap,
unsigned  _iObj,
int  _axis,
EcalElectronicsMapping const *  electronicsMap 
)

Definition at line 225 of file MESetBinningUtils2.cc.

226  {
227  AxisSpecs specs;
228 
229  unsigned iSM(_iObj);
230 
231  const bool isBarrel(iSM >= kEBmLow && iSM <= kEBpHigh);
232 
233  if (!_isMap) {
234  switch (_btype) {
235  case kCrystal:
236  specs.nbins = isBarrel ? 1700 : electronicsMap->dccConstituents(iSM + 1).size();
237  specs.low = 0.;
238  specs.high = specs.nbins;
239  specs.title = "crystal";
240  break;
241  case kTriggerTower:
242  case kPseudoStrip:
243  specs.nbins = isBarrel ? 68 : (2 * nTTOuter + 2 * nTTInner); // For EE: numbering of bins
244  // is in the order (inner1, inner2, outer1, outer2). ("inner"" := closer
245  // to the beam)
246  specs.low = 1.;
247  specs.high = specs.nbins + specs.low;
248  specs.title = "tower";
249  break;
250  case kSuperCrystal:
251  specs.nbins = isBarrel ? 68 : nSuperCrystals(iSM + 1);
252  specs.low = 1.;
253  specs.high = specs.nbins + specs.low;
254  specs.title = "tower";
255  break;
256  default:
257  break;
258  }
259  } else {
260  int nEEX(nEESMX);
261  int nEEY(nEESMY);
262  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
263  nEEX = nEESMXExt;
264  if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
265  nEEX = nEESMXRed;
266  if (iSM == kEEm03 || iSM == kEEm07 || iSM == kEEp03 || iSM == kEEp07)
267  nEEY = nEESMYRed;
268 
269  switch (_btype) {
270  case kCrystal:
271  if (_axis == 1)
272  specs.nbins = isBarrel ? nEBSMEta : nEEX;
273  else if (_axis == 2)
274  specs.nbins = isBarrel ? nEBSMPhi : nEEY;
275  break;
276  case kTriggerTower:
277  case kPseudoStrip:
278  if (_axis == 1)
279  specs.nbins = isBarrel ? nEBSMEta / 5 : nEEX;
280  else if (_axis == 2)
281  specs.nbins = isBarrel ? nEBSMPhi / 5 : nEEY;
282  break;
283  case kSuperCrystal:
284  if (_axis == 1)
285  specs.nbins = isBarrel ? nEBSMEta / 5 : nEEX / 5;
286  else if (_axis == 2)
287  specs.nbins = isBarrel ? nEBSMPhi / 5 : nEEY / 5;
288  break;
289  default:
290  return specs;
291  }
292 
293  if (_axis == 1) {
294  specs.low = xlow_(iSM);
295  specs.high = specs.low + (isBarrel ? nEBSMEta : nEEX);
296  specs.title = isBarrel ? (iSM < kEBpLow ? "-ieta" : "ieta") : "ix";
297  } else if (_axis == 2) {
298  specs.low = ylow_(iSM);
299  specs.high = specs.low + (isBarrel ? nEBSMPhi : nEEY);
300  specs.title = isBarrel ? "iphi" : "iy";
301  }
302  }
303 
304  return specs;
305  }

References EcalElectronicsMapping::dccConstituents(), PixelPluginsPhase0_cfi::isBarrel, kCrystal, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, ecaldqm::kEBpLow, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm03, ecaldqm::kEEm05, ecaldqm::kEEm07, ecaldqm::kEEm08, ecaldqm::kEEm09, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp03, ecaldqm::kEEp05, ecaldqm::kEEp07, ecaldqm::kEEp08, ecaldqm::kEEp09, kPseudoStrip, kSuperCrystal, kTriggerTower, nEBSMEta, nEBSMPhi, nEESMX, nEESMXExt, nEESMXRed, nEESMY, nEESMYRed, ecaldqm::nSuperCrystals(), ecaldqm::nTTInner, ecaldqm::nTTOuter, HistogramManager_cfi::specs, xlow_(), and ylow_().

Referenced by getBinning().

◆ getBinningSMMEM_()

AxisSpecs ecaldqm::binning::getBinningSMMEM_ ( BinningType  _btype,
bool  _isMap,
unsigned  _iObj,
int  _axis 
)

Definition at line 307 of file MESetBinningUtils2.cc.

307  {
308  AxisSpecs specs;
309 
310  unsigned iSM(memDCCId(_iObj) - 1);
311 
312  if (iSM == unsigned(-1) || _btype != kCrystal)
313  return specs;
314 
315  if (_axis == 1) {
316  specs.nbins = 10;
317  specs.low = 0.;
318  specs.high = 10.;
319  if (_isMap)
320  specs.title = "pseudo-strip";
321  else
322  specs.title = "iPN";
323  } else if (_axis == 2) {
324  specs.nbins = 1;
325  specs.low = 0.;
326  specs.high = 5.;
327  specs.title = "channel";
328  }
329 
330  return specs;
331  }

References kCrystal, ecaldqm::memDCCId(), and HistogramManager_cfi::specs.

Referenced by getBinning().

◆ getNObjects()

unsigned ecaldqm::binning::getNObjects ( ObjectType  _otype)

Definition at line 535 of file MESetBinningUtils.cc.

535  {
536  switch (_otype) {
537  case kSM:
538  return nDCC;
539  case kEBSM:
540  return nEBDCC;
541  case kEESM:
542  return nEEDCC;
543  case kSMMEM:
544  return nDCCMEM;
545  case kEBSMMEM:
546  return nEBDCC;
547  case kEESMMEM:
548  return nEEDCCMEM;
549  case kEcal2P:
550  return 2;
551  case kEcal3P:
552  return 3;
553  case kEE2P:
554  return 2;
555  case kMEM2P:
556  return 2;
557  default:
558  return 1;
559  }
560  }

References kEBSM, kEBSMMEM, kEcal2P, kEcal3P, kEE2P, kEESM, kEESMMEM, kMEM2P, kSM, kSMMEM, ecaldqm::nDCC, ecaldqm::nDCCMEM, ecaldqm::nEBDCC, ecaldqm::nEEDCC, and ecaldqm::nEEDCCMEM.

Referenced by findPlotIndex(), ecaldqm::MESetEcal::generatePaths(), ecaldqm::MESetDet2D::reset(), and ecaldqm::MESetDet1D::reset().

◆ getObject()

ObjectType ecaldqm::binning::getObject ( ObjectType  _otype,
unsigned  _iObj 
)

Definition at line 490 of file MESetBinningUtils.cc.

490  {
491  switch (_otype) {
492  case kEcal3P:
493  switch (_iObj) {
494  case 0:
495  return kEEm;
496  case 1:
497  return kEB;
498  case 2:
499  return kEEp;
500  default:
501  return nObjType;
502  }
503  case kEcal2P:
504  switch (_iObj) {
505  case 0:
506  return kEE;
507  case 1:
508  return kEB;
509  default:
510  return nObjType;
511  }
512  case kEE2P:
513  switch (_iObj) {
514  case 0:
515  return kEEm;
516  case 1:
517  return kEEp;
518  default:
519  return nObjType;
520  }
521  case kMEM2P:
522  switch (_iObj) {
523  case 0:
524  return kEEMEM;
525  case 1:
526  return kEBMEM;
527  default:
528  return nObjType;
529  }
530  default:
531  return _otype;
532  }
533  }

References kEB, kEBMEM, kEcal2P, kEcal3P, kEE, kEE2P, kEEm, kEEMEM, kEEp, kMEM2P, and nObjType.

Referenced by ecaldqm::MESetDet2D::book(), ecaldqm::MESetDet1D::book(), ecaldqm::MESetEcal::book(), ecaldqm::MESet::ConstBin::ConstBin(), ecaldqm::MESetDet2D::fill(), ecaldqm::MESetDet1D::fill(), ecaldqm::MESetDet2D::findBin(), ecaldqm::MESetDet1D::findBin(), ecaldqm::MESetEcal::generatePaths(), ecaldqm::MESetDet2D::getBinContent(), ecaldqm::MESetDet1D::getBinContent(), ecaldqm::MESetDet2D::getBinEntries(), ecaldqm::MESetDet1D::getBinEntries(), ecaldqm::MESetDet2D::getBinError(), ecaldqm::MESetDet1D::getBinError(), ecaldqm::MESet::const_iterator::operator++(), ecaldqm::MESetDet2D::reset(), ecaldqm::MESetDet2D::setBinContent(), ecaldqm::MESetDet1D::setBinContent(), ecaldqm::MESetDet2D::setBinEntries(), ecaldqm::MESetDet1D::setBinEntries(), ecaldqm::MESetDet2D::setBinError(), and ecaldqm::MESetDet1D::setBinError().

◆ idFromBin()

uint32_t ecaldqm::binning::idFromBin ( ObjectType  _otype,
BinningType  _btype,
unsigned  _iME,
int  _bin 
)

Definition at line 752 of file MESetBinningUtils.cc.

752  {
753  if (_otype == kEB) {
754  if (_btype == kCrystal) {
755  int ieta(_bin / 362 - 86);
756  if (ieta >= 0)
757  ++ieta;
758  return EBDetId(ieta, _bin % 362);
759  } else if (_btype == kTriggerTower || _btype == kSuperCrystal) {
760  int ieta(_bin / 74 - 17);
761  int z(1);
762  if (ieta <= 0) {
763  z = -1;
764  ieta = -ieta + 1;
765  }
766  return EcalTrigTowerDetId(z, EcalBarrel, ieta, (_bin % 74 + 69) % 72 + 1);
767  }
768  } else if (_otype == kEEm || _otype == kEEp) {
769  int z(_otype == kEEm ? -1 : 1);
770  if (_btype == kCrystal || _btype == kTriggerTower)
771  return EEDetId(_bin % 102, _bin / 102, z).rawId();
772  else if (_btype == kSuperCrystal)
773  return EcalScDetId(_bin % 22, _bin / 22, z).rawId();
774  } else if (_otype == kEE) {
775  if (_btype == kCrystal || _btype == kTriggerTower) {
776  int ix(_bin % 202);
777  int z(ix > 100 ? 1 : -1);
778  if (z > 0)
779  ix = (ix - 100) % 101;
780  return EEDetId(ix, _bin / 202, z).rawId();
781  } else if (_btype == kSuperCrystal) {
782  int ix(_bin % 42);
783  int z(ix > 20 ? 1 : -1);
784  if (z > 0)
785  ix = (ix - 20) % 21;
786  return EcalScDetId(ix, _bin / 42, z).rawId();
787  }
788  } else if (_otype == kSM || _otype == kEBSM || _otype == kEESM) {
789  unsigned iSM(_iME);
790  if (_otype == kEBSM)
791  iSM += 9;
792  else if (_otype == kEESM && iSM > kEEmHigh)
793  iSM += nEBDCC;
794 
795  int z(iSM <= kEBmHigh ? -1 : 1);
796 
797  if ((iSM >= kEBmLow && iSM <= kEBmHigh) || (iSM >= kEBpLow && iSM <= kEBpHigh)) {
798  if (_btype == kCrystal) {
799  int iphi(((iSM - 9) % 18) * 20 + (z < 0 ? _bin / 87 : 21 - _bin / 87));
800  int ieta((_bin % 87) * z);
801  return EBDetId(ieta, iphi).rawId();
802  } else if (_btype == kTriggerTower || _btype == kSuperCrystal) {
803  int iphi((((iSM - 9) % 18) * 4 + (z < 0 ? _bin / 19 : 5 - _bin / 19) + 69) % 72 + 1);
804  int ieta(_bin % 19);
806  }
807  } else {
808  if (_btype == kCrystal || _btype == kTriggerTower) {
809  int nX(nEESMX);
810  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
811  nX = nEESMXExt;
812  if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
813  nX = nEESMXRed;
814  return EEDetId(_bin % (nX + 2) + xlow_(iSM), _bin / (nX + 2) + ylow_(iSM), z).rawId();
815  } else if (_btype == kSuperCrystal) {
816  int nX(nEESMX / 5);
817  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
818  nX = nEESMXExt / 5;
819  if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
820  nX = nEESMXRed / 5;
821  return EcalScDetId(_bin % (nX + 2) + xlow_(iSM) / 5, _bin / (nX + 2) + ylow_(iSM) / 5, z).rawId();
822  }
823  }
824  }
825 
826  return 0;
827  }

References EcalBarrel, LEDCalibrationChannels::ieta, LEDCalibrationChannels::iphi, kCrystal, kEB, ecaldqm::kEBmHigh, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, ecaldqm::kEBpLow, kEBSM, kEE, kEEm, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm05, ecaldqm::kEEm08, ecaldqm::kEEm09, ecaldqm::kEEmHigh, kEEp, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp05, ecaldqm::kEEp08, ecaldqm::kEEp09, kEESM, kSM, kSuperCrystal, kTriggerTower, ecaldqm::nEBDCC, nEESMX, nEESMXExt, nEESMXRed, DetId::rawId(), xlow_(), and ylow_().

Referenced by ecaldqm::MESet::ConstBin::getId().

◆ idFromName()

uint32_t ecaldqm::binning::idFromName ( std::string const &  _name)

Definition at line 689 of file MESetBinningUtils.cc.

689  {
690  TString name(_name);
691  TPRegexp re(
692  "(EB|EE)([+-][0-9][0-9])(?: TCC ([0-9]+)| DCC ([0-9]+) (CCU|TCC) "
693  "([0-9]+)(?: (TT|strip|PN) ([0-9]+)(?: xtal ([0-9]+)|)|)|)");
694  // 1 2 3 4 5 6 7 8 9
695  uint32_t rawId(0);
696 
697  TObjArray *matches(re.MatchS(name));
698  matches->SetOwner(true);
699  if (matches->GetEntries() == 0)
700  return 0;
701  else if (matches->GetEntries() == 3) {
702  TString subdet(static_cast<TObjString *>(matches->At(1))->GetString());
703  if (subdet == "EB") {
704  int dccid(static_cast<TObjString *>(matches->At(2))->GetString().Atoi());
705  unsigned offset(0);
706  if (dccid < 0) {
707  dccid *= -1;
708  offset = kEEmLow;
709  } else
710  offset = kEEpLow;
711  rawId = (dccid + 2) % 9 + 1 + offset;
712  } else {
713  int dccid(static_cast<TObjString *>(matches->At(2))->GetString().Atoi());
714  if (dccid < 0)
715  dccid *= -1;
716  else
717  dccid += 18;
718  rawId = kEBmLow + dccid;
719  }
720  } else if (matches->GetEntries() == 4)
721  rawId = static_cast<TObjString *>(matches->At(3))->GetString().Atoi() + nDCC;
722  else {
723  TString subtype(static_cast<TObjString *>(matches->At(5))->GetString());
724  if (subtype == "TCC") {
725  int tccid(static_cast<TObjString *>(matches->At(6))->GetString().Atoi());
726  int ttid(static_cast<TObjString *>(matches->At(8))->GetString().Atoi());
727  rawId = EcalTriggerElectronicsId(tccid, ttid, 1, 1).rawId();
728  } else {
729  int dccid(static_cast<TObjString *>(matches->At(4))->GetString().Atoi());
730  int towerid(static_cast<TObjString *>(matches->At(6))->GetString().Atoi());
731  if (matches->GetEntries() == 7)
732  rawId = EcalElectronicsId(dccid, towerid, 1, 1).rawId();
733  else {
734  TString chType(static_cast<TObjString *>(matches->At(7))->GetString());
735  int stripOrPNid(static_cast<TObjString *>(matches->At(8))->GetString().Atoi());
736  if (chType == "PN")
737  rawId = EcalElectronicsId(dccid, towerid, 1, stripOrPNid).rawId();
738  else if (chType == "strip") {
739  int xtalid(static_cast<TObjString *>(matches->At(9))->GetString().Atoi());
740  rawId = EcalElectronicsId(dccid, towerid, stripOrPNid, xtalid).rawId();
741  }
742  // case "TT" is already taken care of
743  }
744  }
745  }
746 
747  delete matches;
748 
749  return rawId;
750  }

References ecaldqm::kEBmLow, ecaldqm::kEEmLow, ecaldqm::kEEpLow, oniaPATMuonsWithTrigger_cff::matches, Skims_PA_cff::name, ecaldqm::nDCC, hltrates_dqm_sourceclient-live_cfg::offset, EcalTriggerElectronicsId::rawId(), and EcalElectronicsId::rawId().

◆ isValidIdBin()

bool ecaldqm::binning::isValidIdBin ( EcalElectronicsMapping const *  electronicsMap,
ObjectType  _otype,
BinningType  _btype,
unsigned  _iME,
int  _bin 
)

Definition at line 562 of file MESetBinningUtils.cc.

563  {
564  if (_otype == kEEm || _otype == kEEp) {
565  if (_btype == kCrystal || _btype == kTriggerTower)
566  return EEDetId::validDetId(_bin % 102, _bin / 102, 1);
567  else if (_btype == kSuperCrystal)
568  return EcalScDetId::validDetId(_bin % 22, _bin / 22, 1);
569  } else if (_otype == kEE) {
570  if (_btype == kCrystal || _btype == kTriggerTower) {
571  int ix(_bin % 202);
572  if (ix > 100)
573  ix = (ix - 100) % 101;
574  return EEDetId::validDetId(ix, _bin / 202, 1);
575  } else if (_btype == kSuperCrystal) {
576  int ix(_bin % 42);
577  if (ix > 20)
578  ix = (ix - 20) % 21;
579  return EcalScDetId::validDetId(ix, _bin / 42, 1);
580  }
581  } else if (_otype == kSM || _otype == kEESM) {
582  unsigned iSM(_iME);
583  if (_otype == kEESM && iSM > kEEmHigh)
584  iSM += nEBDCC;
585 
586  if (iSM >= kEBmLow && iSM <= kEBpHigh)
587  return true;
588 
589  if (_btype == kCrystal || _btype == kTriggerTower) {
590  int nX(nEESMX);
591  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
592  nX = nEESMXExt;
593  if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
594  nX = nEESMXRed;
595  int ix(_bin % (nX + 2) + xlow_(iSM));
596  int iy(_bin / (nX + 2) + ylow_(iSM));
597  int z(iSM <= kEEmHigh ? -1 : 1);
598  return EEDetId::validDetId(ix, iy, 1) && iSM == dccId(EEDetId(ix, iy, z), electronicsMap) - 1;
599  } else if (_btype == kSuperCrystal) {
600  int nX(nEESMX / 5);
601  if (iSM == kEEm02 || iSM == kEEm08 || iSM == kEEp02 || iSM == kEEp08)
602  nX = nEESMXExt / 5;
603  if (iSM == kEEm01 || iSM == kEEm05 || iSM == kEEm09 || iSM == kEEp01 || iSM == kEEp05 || iSM == kEEp09)
604  nX = nEESMXRed / 5;
605  int ix(_bin % (nX + 2) + xlow_(iSM) / 5);
606  int iy(_bin / (nX + 2) + ylow_(iSM) / 5);
607  int z(iSM <= kEEmHigh ? -1 : 1);
608  return EcalScDetId::validDetId(ix, iy, z) && iSM == dccId(EcalScDetId(ix, iy, z), electronicsMap) - 1;
609  }
610  }
611 
612  return true;
613  }

References ecaldqm::dccId(), kCrystal, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, kEE, kEEm, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm05, ecaldqm::kEEm08, ecaldqm::kEEm09, ecaldqm::kEEmHigh, kEEp, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp05, ecaldqm::kEEp08, ecaldqm::kEEp09, kEESM, kSM, kSuperCrystal, kTriggerTower, ecaldqm::nEBDCC, nEESMX, nEESMXExt, nEESMXRed, EcalScDetId::validDetId(), EEDetId::validDetId(), xlow_(), and ylow_().

Referenced by ecaldqm::MESet::ConstBin::isChannel(), and ecaldqm::MESetDet2D::reset().

◆ translateBinningType()

BinningType ecaldqm::binning::translateBinningType ( std::string const &  _btypeName)

Definition at line 922 of file MESetBinningUtils.cc.

922  {
923  if (_btypeName == "Crystal")
924  return kCrystal;
925  else if (_btypeName == "TriggerTower")
926  return kTriggerTower;
927  else if (_btypeName == "SuperCrystal")
928  return kSuperCrystal;
929  else if (_btypeName == "PseudoStrip")
930  return kPseudoStrip;
931  else if (_btypeName == "TCC")
932  return kTCC;
933  else if (_btypeName == "DCC")
934  return kDCC;
935  else if (_btypeName == "ProjEta")
936  return kProjEta;
937  else if (_btypeName == "ProjPhi")
938  return kProjPhi;
939  else if (_btypeName == "RCT")
940  return kRCT;
941  else if (_btypeName == "User")
942  return kUser;
943  else if (_btypeName == "Report")
944  return kReport;
945  else if (_btypeName == "Trend")
946  return kTrend;
947 
948  throw cms::Exception("InvalidConfiguration") << "No binning type " << _btypeName << " defined";
949  }

References Exception, kCrystal, kDCC, kProjEta, kProjPhi, kPseudoStrip, kRCT, kReport, kSuperCrystal, kTCC, kTrend, kTriggerTower, and kUser.

Referenced by ecaldqm::createMESet().

◆ translateKind()

dqm::reco::MonitorElement::Kind ecaldqm::binning::translateKind ( std::string const &  _kindName)

Definition at line 951 of file MESetBinningUtils.cc.

951  {
952  if (_kindName == "REAL")
954  else if (_kindName == "TH1F")
956  else if (_kindName == "TProfile")
958  else if (_kindName == "TH2F")
960  else if (_kindName == "TProfile2D")
962  else
964  }

References MonitorElementData::INVALID, MonitorElementData::REAL, MonitorElementData::TH1F, MonitorElementData::TH2F, MonitorElementData::TPROFILE, and MonitorElementData::TPROFILE2D.

Referenced by ecaldqm::createMESet().

◆ translateObjectType()

ObjectType ecaldqm::binning::translateObjectType ( std::string const &  _otypeName)

Definition at line 877 of file MESetBinningUtils.cc.

877  {
878  if (_otypeName == "EB")
879  return kEB;
880  else if (_otypeName == "EE")
881  return kEE;
882  else if (_otypeName == "EEm")
883  return kEEm;
884  else if (_otypeName == "EEp")
885  return kEEp;
886  else if (_otypeName == "SM")
887  return kSM;
888  else if (_otypeName == "EBSM")
889  return kEBSM;
890  else if (_otypeName == "EESM")
891  return kEESM;
892  else if (_otypeName == "SMMEM")
893  return kSMMEM;
894  else if (_otypeName == "EBSMMEM")
895  return kEBSMMEM;
896  else if (_otypeName == "EESMMEM")
897  return kEESMMEM;
898  else if (_otypeName == "Ecal")
899  return kEcal;
900  else if (_otypeName == "MEM")
901  return kMEM;
902  else if (_otypeName == "EBMEM")
903  return kEBMEM;
904  else if (_otypeName == "EEMEM")
905  return kEEMEM;
906  else if (_otypeName == "Ecal2P")
907  return kEcal2P;
908  else if (_otypeName == "Ecal3P")
909  return kEcal3P;
910  else if (_otypeName == "EE2P")
911  return kEE2P;
912  else if (_otypeName == "MEM2P")
913  return kMEM2P;
914  else if (_otypeName == "Channel")
915  return kChannel;
916  else if (_otypeName == "None")
917  return nObjType;
918 
919  throw cms::Exception("InvalidConfiguration") << "No object type " << _otypeName << " defined";
920  }

References Exception, kChannel, kEB, kEBMEM, kEBSM, kEBSMMEM, kEcal, kEcal2P, kEcal3P, kEE, kEE2P, kEEm, kEEMEM, kEEp, kEESM, kEESMMEM, kMEM, kMEM2P, kSM, kSMMEM, and nObjType.

Referenced by ecaldqm::createMESet().

◆ xlow_()

int ecaldqm::binning::xlow_ ( int  _iSM)

Definition at line 13 of file MESetBinningUtils2.cc.

13  {
14  switch (_iSM) {
15  case kEEm01:
16  case kEEp01:
17  return 20;
18  case kEEm02:
19  case kEEp02:
20  return 0;
21  case kEEm03:
22  case kEEp03:
23  return 0;
24  case kEEm04:
25  case kEEp04:
26  return 5;
27  case kEEm05:
28  case kEEp05:
29  return 35;
30  case kEEm06:
31  case kEEp06:
32  return 55;
33  case kEEm07:
34  case kEEp07:
35  return 60;
36  case kEEm08:
37  case kEEp08:
38  return 55;
39  case kEEm09:
40  case kEEp09:
41  return 50;
42  default:
43  break;
44  }
45 
46  if (_iSM >= kEBmLow && _iSM <= kEBpHigh)
47  return 0;
48 
49  return 0;
50  }

References ecaldqm::kEBmLow, ecaldqm::kEBpHigh, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm03, ecaldqm::kEEm04, ecaldqm::kEEm05, ecaldqm::kEEm06, ecaldqm::kEEm07, ecaldqm::kEEm08, ecaldqm::kEEm09, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp03, ecaldqm::kEEp04, ecaldqm::kEEp05, ecaldqm::kEEp06, ecaldqm::kEEp07, ecaldqm::kEEp08, and ecaldqm::kEEp09.

Referenced by findBinCrystal_(), findBinSuperCrystal_(), getBinningSM_(), idFromBin(), and isValidIdBin().

◆ ylow_()

int ecaldqm::binning::ylow_ ( int  _iSM)

Definition at line 52 of file MESetBinningUtils2.cc.

52  {
53  switch (_iSM) {
54  case kEEm01:
55  case kEEp01:
56  case kEEm09:
57  case kEEp09:
58  return 60;
59  case kEEm02:
60  case kEEp02:
61  case kEEm08:
62  case kEEp08:
63  return 50;
64  case kEEm03:
65  case kEEp03:
66  case kEEm07:
67  case kEEp07:
68  return 25;
69  case kEEm04:
70  case kEEp04:
71  case kEEm06:
72  case kEEp06:
73  return 5;
74  case kEEm05:
75  case kEEp05:
76  return 0;
77  default:
78  break;
79  }
80 
81  if (_iSM >= kEBmLow && _iSM <= kEBmHigh)
82  return ((_iSM - kEBmLow) % 18) * 20;
83  if (_iSM >= kEBpLow && _iSM <= kEBpHigh)
84  return (-1 - ((_iSM - kEBpLow) % 18)) * 20;
85 
86  return 0;
87  }

References ecaldqm::kEBmHigh, ecaldqm::kEBmLow, ecaldqm::kEBpHigh, ecaldqm::kEBpLow, ecaldqm::kEEm01, ecaldqm::kEEm02, ecaldqm::kEEm03, ecaldqm::kEEm04, ecaldqm::kEEm05, ecaldqm::kEEm06, ecaldqm::kEEm07, ecaldqm::kEEm08, ecaldqm::kEEm09, ecaldqm::kEEp01, ecaldqm::kEEp02, ecaldqm::kEEp03, ecaldqm::kEEp04, ecaldqm::kEEp05, ecaldqm::kEEp06, ecaldqm::kEEp07, ecaldqm::kEEp08, and ecaldqm::kEEp09.

Referenced by findBinCrystal_(), findBinSuperCrystal_(), getBinningSM_(), idFromBin(), and isValidIdBin().

ecaldqm::binning::getBinningEcal_
AxisSpecs getBinningEcal_(BinningType, bool, int)
Definition: MESetBinningUtils2.cc:333
SummaryClient_cfi.labels
labels
Definition: SummaryClient_cfi.py:61
ecaldqm::kEBmHigh
Definition: EcalDQMCommonUtils.h:85
mps_fire.i
i
Definition: mps_fire.py:428
EcalTrigTowerDetId::iphi
int iphi() const
get the tower iphi
Definition: EcalTrigTowerDetId.h:52
ecaldqm::binning::kSuperCrystal
Definition: MESetBinningUtils.h:44
ecaldqm::kEEm09
Definition: EcalDQMCommonUtils.h:28
ecaldqm::kEEp09
Definition: EcalDQMCommonUtils.h:73
ecaldqm::binning::kEE2P
Definition: MESetBinningUtils.h:35
filterCSVwithJSON.copy
copy
Definition: filterCSVwithJSON.py:36
EcalTriggerElectronicsId
Ecal trigger electronics identification [32:20] Unused (so far) [19:13] TCC id [12:6] TT id [5:3] pse...
Definition: EcalTriggerElectronicsId.h:18
detailsBasic3DVector::z
float float float z
Definition: extBasic3DVector.h:14
ecaldqm::zside
int zside(DetId const &)
Definition: EcalDQMCommonUtils.cc:189
MonitorElementData::Kind::TH1F
EBDetId
Definition: EBDetId.h:17
ecaldqm::kEEm04
Definition: EcalDQMCommonUtils.h:32
ecaldqm::ttId
unsigned ttId(DetId const &, EcalElectronicsMapping const *)
Definition: EcalDQMCommonUtils.cc:99
EcalLaserPnDiode
Definition: EcalSubdetector.h:10
ecaldqm::binning::kEEp
Definition: MESetBinningUtils.h:22
ecaldqm::nSuperCrystals
unsigned nSuperCrystals(unsigned)
Definition: EcalDQMCommonUtils.cc:369
ecaldqm::binning::kEB
Definition: MESetBinningUtils.h:19
HistogramManager_cfi.specs
specs
Definition: HistogramManager_cfi.py:83
EcalScDetId::validDetId
static bool validDetId(int ix, int iy, int iz)
Definition: EcalScDetId.cc:59
oniaPATMuonsWithTrigger_cff.matches
matches
Definition: oniaPATMuonsWithTrigger_cff.py:77
hgcalTowerProducer_cfi.tower
tower
Definition: hgcalTowerProducer_cfi.py:4
ecaldqm::memDCCIndex
unsigned memDCCIndex(unsigned)
Definition: EcalDQMCommonUtils.cc:46
ecaldqm::nEBDCC
Definition: EcalDQMCommonUtils.h:92
EcalPnDiodeDetId::iPnId
int iPnId() const
get the PnId
Definition: EcalPnDiodeDetId.h:46
ecaldqm::binning::findBinRCT_
int findBinRCT_(ObjectType, DetId const &)
Definition: MESetBinningUtils2.cc:527
hlt_dqm_clientPB-live_cfg.nbinsX
nbinsX
Definition: hlt_dqm_clientPB-live_cfg.py:65
ecaldqm::binning::kEcal2P
Definition: MESetBinningUtils.h:33
ecaldqm::kEEm07
Definition: EcalDQMCommonUtils.h:26
ecaldqm::isEndcapTTId
bool isEndcapTTId(DetId const &)
Definition: EcalDQMCommonUtils.cc:270
ecaldqm::kEEp07
Definition: EcalDQMCommonUtils.h:71
ecaldqm::kEEmLow
Definition: EcalDQMCommonUtils.h:80
ecaldqm::kEEm01
Definition: EcalDQMCommonUtils.h:29
ecaldqm::binning::kProjEta
Definition: MESetBinningUtils.h:48
ecaldqm::binning::kEBMEM
Definition: MESetBinningUtils.h:31
EcalPnDiodeDetId
Definition: EcalPnDiodeDetId.h:22
EcalTrigTowerDetId
Definition: EcalTrigTowerDetId.h:14
ecaldqm::etaBound
const double etaBound
ecaldqm::binning::nEBSMEta
Definition: MESetBinningUtils.h:60
ecaldqm::binning::kEE
Definition: MESetBinningUtils.h:20
edm::LogWarning
Log< level::Warning, false > LogWarning
Definition: MessageLogger.h:122
ecaldqm::binning::nEBSMPhi
Definition: MESetBinningUtils.h:61
EcalBarrel
Definition: EcalSubdetector.h:10
edm::ParameterSetDescription::addOptionalUntracked
ParameterDescriptionBase * addOptionalUntracked(U const &iLabel, T const &value)
Definition: ParameterSetDescription.h:110
ecaldqm::binning::kReport
Definition: MESetBinningUtils.h:52
ecaldqm::towerId
unsigned towerId(DetId const &, EcalElectronicsMapping const *)
Definition: EcalDQMCommonUtils.cc:77
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